Laminating apparatus



Aug. l5, 1,939. l.. GoLD LAMINATING APPARATUS Filed Jan. 8, '1936 2 Sheets-Sheet 1 Aug. 15, y1939. L .GOLD

LAMINAT ING APPARATUS `Filed Jan. 8, 1936 2 Sheets-Sheet 2 INVENTOR Leon Gold BY .9' ATTORNEYS ePatented Aug. 15, 1939 UNITED sTATEs LAMINATING- APPARATUS Leon Gold, Brooklyn, N. Y., assignor of one-half to Moses Krivis, Brooklyn, N. Y.

Application Januaryk 8, 1936, Serial No. 58,060 s claims. (c1. 154-36) This invention relates to lamination of, sheet materials, and more particularly the lamination of a base or foundation material with transparent cellulose paper.

; The primary object of my invention is to generally improve liminating processes and apparatus. A more particular object is to facilitate the lamination of separate sheets of paper, in contradistinction to a. continuous web, and for D this purpose I nd it preferable to employ a continuousv web of material for the added lamination, this web making it possible to handle the various operations as a continuous process. Another object of my invention is to make possible successful and satisfactory permanent adhesion of transparent cellulose paper to other stock.

As is well known to thoseskilled in the art, it is exceedingly difficult to successfully and-permanently adhere transparent cellulose paper to D other sheet stock, and to obtain a surface union therebetween which is continuous and unrnarred by streaks, blisters, and the like. Another diffi-v culty which arises during the lamination of materials is caused by the extrusion of excess cement 5 from the edges of the material when pressing the same together. This difficulty is particularly acute when laminating separate sheets to a continuous web because the cement vis extruded on all four edges of the sheet and tends to be deposited directly Aon the pressure rolls, thereby mining subsequent operation of the apparatus.`

The problem in question is increasedin severity when laminating transparent cellulose stock, asA

aforesaid, for the reason that in order not to mar f i the appearance of the foundation being covered-v or protected by the transparent cellulose paper, the adhesive should be spread uniformly over the entire surface to prevent separation, streaks, and blisters, yet the lm of adhesive must be exceedingly thin. I find' it possible to` reconcile vthese conflicting requirements by initially applyinga generous coating of adhesive and 'subsequently squeezing all of the excess adhesive fronrbetween the sheets', but manifestly this procedure aggravates the objectionable deposit of` adhesive on the pressure rolls and other parts of the apparatus. Still anotherl problem which arises when attemptingJ to laminate transparent ce1- lulose material is the tendency of the material tov generate an electric charge or static, which in turn causes the same tov adhere tothe adjacent pressure roll contacting therewith, thus leading to separation of the parts of the embryo lami-f nated stock. i I have discovered that all of the foregoing diiculties may be overcome by the use of moving webs of absorptive material', which, for convenience, may be referredl to as blankets. The blankets are preferably made of kraft paper, but other relatively porous or absorptive paper, or 5 even fabric, may be employed. In some cases, as where the separate sheets are substantially smaller than the continuous web, it is possible to use only a single blanket, this being disposed on the side of the small sheets in order to contact and immediately absorb all excessive adhesive squeezed from between the sheets and web. However, I prefer to make the arrangement perfectly symmetrical and to use blankets on both sides of the laminated stock. v15

Further objects of my invention are to obtain an adequate length of blanket to` insure substantial continuity when practicing the invention, and to facilitate repeated use of the blankets until their absorptive properties have been substantially exhausted. To this end, the blankets are fed from supply drums to take-up drums, the latter preferably being motor driven, and when, the supply drums are exhausted, the blankets are reversed in direction, that, is, they are fed e from-the former take-up drum to the former sup-4 ply drum, the motor drive then being changed from the former take-up drum to the former supply drum.v l

Other objects of my invention center about the cement applying mechanism, and are to preventvthe formation of bubbles and to minimize streak' ing or damage which might be caused by `specks of dirtin the adhesive. With these'objects in view, I provide a doctor roll and a downwardly 35 inclined bubble tray forming an inclined path from the doctor roll to the reservoir of adhesive.

The use of a doctor roll minimizes the effect of Adirt or solid matter which,l instead of being retained in place against the cement roll,`is car- 40 ried around and washed fromv thedoctor roll, While the bubble tray prevents dropping of the adhesive and consequent formation ofybubbles.

To the accomplishment yof thel foregoing land such other vobjects as will vhereinafter appear, 45 z myinv'ention consists in the laminating process and apparatus therefor, and their relation one to the other, as hereinafter are` more particularly described in the specification and sought to be defined in the claims.` The specification is accompanied byV drawings in which:

Fig. 1 is a section taken in elevation through apparatus embodying features of my invention;I

Fig. 2 .shows the said apparatus in plan;

Fig. 3 is a side elevation of a part of theap- 55 paratus, taken in the plane of the line 3-3 of Fig. 2, that is, with the gearing removed;

Fig. 4 is a similar elevation but showing and explanatory of the gearing; and

Fig. 4 illustrates the invention as applied sper per and lower pressure rolls I8 and 2l) where.

the laminations are squeezed tightly together and all excess adhesive is extruded. The resulting laminated material is then wound on a suitable take-up drum 22.

In accordance with my invention, upper and lower blankets or webs 24 and 26 of relatively porous highly absorbent material are fed along with the laminated web on opposite sides thereof between the pressure rolls I8 and 20. blankets absorb all excess adhesive as vit is squeezed from between the sheets. The blankets eiectually shield the pressure rolls from contacting with the adhesive, thus keeping the same perfectly clean even after long operation. The blankets further function to keep the laminated product clean, for the excess adhesive is drawn away from the edges and cannot spread thereover. It will be noted that the blankets, on leaving the pressure rolls, are guidedby guide rollers 28 and 30 which position the blankets nearly horizontally for an appreciable distance from the pressure rolls. This insures accurate and dependable feed of .thelaminated stock away from the pressure rolls, and definitely prevents clinging of the stock to one roll or the other, or resulting separation of the laminations such as is frequently caused by the generation of an electric charge or static. lIt will be noted. however, that guide rollers 28 and 30 are displaced somewhat above and below the laminated web 32, this being desirable in order to obtain a fairly quick separation of the blankets from the web in order to prevent adhesion therebetween. A further and incidental advantage when using blankets is the cushioning effect caused thereby, which makes up for any slight irregularity or changes in thickness of the stock.

Transparent cellulose paper, made of regeneratedcellulose or a. cellulose ester, such as the products known commercially as Cellophane and Kodapak, areparticularly subject to warping caused by uneven stretch and the effects of static electricity; and both diiculties are satisfactorily overcome by using the blankets here described.

Considering the apparatus in greater, detail the cement roll I2 runs in a bath 34 of a suitable adhesive which, when dealing with transparent cellulose paper, should, of course, be transparent. I have found any of a number of lacquers suitable for this purpose. The cement picked up on roll I2 is reduced to desired amount by a doctor roll 36. A tray 38 is disposed immediately beneath the doctor roll and leads at a gradual incline to the reservoir of cement. Tray 38 eliminates drop of the excess cement taken from roll I2 by doctor 36. I find that this precaution prevents the formation of bubbles which otherwise may lead to blisters and bare spots in the lami- These ripheral speeds. The glue roll shaft 'I2 carries a nated product. Although only a thin film of adhesive is to be left between the laminations, I find it entirely feasible to so space the cement .and doctor rolls as to obtain a substantial apnation of book jackets, but it will be understood l that this exampleis selected merely by way of illustration and not limitation of the invention. The book jackets are in separate sheet form. The jacket, marked I4, is fed over a suitable table 40 to cement roll I2. The direction of the jacket is appropriately guided by one or more fences 42 mounted on 4table 40. The jacket is fed in contact with cement roll I2 by suitable feed rolls 44 andl 46. As will be seen by reference to Fig. 3, these rolls are adjustably spaced with relation to cement roll I2 by means of adjusting screws 48 which bear on suitable bearing blocks 56 slidably received in mating ways on the frame 52. The blocks are normally urged outwardly against adjusting screws 48 by suitable compression springs 54.

It will be noted in Fig. 3 that a third set of bearing blocks 56 is provided, adapted to carry another feed roll which, however, may be omitted when dealing with flexible sheet material such as ordinary paper. It may be mentioned, however, that when laminating the cellulose paper to sheets of relatively stii material such as cardboard, ply wood, etc., a feed roll is placed in blocks 56 and the preceding feed rolls may be removed, the cardboard being fed directly between the single top feed roller and the cement roll. This 'change is made, of course, simply with a view to minimizing the necessary bending of the material during the application of adhesiveV thereto. The manner in which the parts so far discussed are driven, will be clear on examination of Fig. 4. The apparatus is driven by a suitable motor, not shown, which is connected by a belt 60 to a pulley 62 with which rotates a pinion 64 which in turn meshes with a gear 66. Gear 66 has associated with it a pinion 68 which in turn meshes with a gear 'I0 mounted on the shaft 12 which carries the glue roll I2. Gear 10 meshes with pinions 'I4 and I6 mounted on shafts 'I8 and 80 of feed rollers 44 and 46, respectively. The pitch diameters of gear I0 and pinions 14'and 'I6 preferably equal the diameters of glue roll I2 and feed rollers 44 and 46, respectively, thereby insuring equal pe- C() pinion 82 which meshes with a gear 84 mounted on the shaft 86 of the doctor roll 36. The speed ratio in this case is so selected as to obtain a difference in surface'speed which causes wiping of excess adhesive from the'cement roll.

Reverting now to Figs. 1 and 2, the cemented sheet or book jacket is stripped from roll I2 by stripper fingers a series of which are distributed along and ride loosely upon a support rod 92. The stripper fingers are preferably cut away or shaped, as shown in Fig. 1, in order to receive a guide roller 84 which is disposed as closely as is conveniently possible to the ends of the stripper iingers.`

The continuous web or lamination, in this case 75 the cellulose material, is drawn from a suitable roll or supply` 96 carried on a loose supply drum 98, and is fed around a guide roller to the guide roller 94 previously mentioned.A 'Ihe web then passes to the right, as viewed in Fig. 1, and extends between pressure rolls I8 and 20 which operate to draw the webtherethrough at a speed synchronized with the surface speed of cement roll I2. It will be understood that the cemented I contact with most of the periphery of the pres` sheet or book jacket is guided by stripper fingers 90 to the traveling web I6 and is spread upon and adhered to the web suciently to reach th pressure rolls I8 and 20. If desired, an intermediate idle or guide roller |02 may be provided between guide roller 94 and the pressure rolls.

Pressure roll 20 is positively geared toI `cement roll I2 for synchronous operation, by suitable gearing here exemplified by a sprocket gear |04 on shaft 'I2 connected through a sprocket chain |06 to a sprocket gear |08 on the shaft of pressure roll 20. The ratio of sprocket gears |04 and |08 is made equal to the ratio of the diameters of cement roll I2 and pressure roll 20. This shaft also carries a gear |I0 meshing directly with a similar gear II2 on the shaft of the upper pressure roll I8. It will be understood that the pitch diameters of gears IIO and II2 are equal to the diameters of pressure rolls I8 and 20, thereby insuring equal linear speeds'. It will be noted that gears IIO and II2 are preferably providedwith helical teeth, and similar remark applies to the various gears previously referred to in connection with the cementing mechanism, in order to obtain smooth uniform motion of all of the working surfaces of the various rollers.

Blankets 24 and 26 preferably consist of soft absorptive paper, such as large rolls of kraft paper. Blanket 24 is fed from a supply drum |I4 which is idle, although its shaft is provided with a pulley ||6 (Fig. Z) The blanket is led around a guide roller I I8 and thence around pressure roll I8. Guide roller I I8 causes the blanket to ride in sureroll, thereby insuring positive drive of the blanket. The blanket then passes around guide roller 2 8 previously referred to, and is led to a 'take-up drum |20 the shaft of which carries a pulley |22 (Fig. 2). lThis pulley is driven by a motor l 24 through a suitable slip connection here exemplified by a pulley |26 and a relatively loose 'i belt |28, but it will be understood that, if desired,

a more elaborate form of slip clutch may be used o'neither pulley. 'It will also be understood that l while, for convenience, I prefer to drive take-up roll |20 by means of a motor|2||v separable from' f the main drivingfmoter, it is also possible to drive j the 'take-up rolls from theV latter' motor, thus usingv only a single source of power.` It will further be understood that lmo'tonl 24 is not intended t'he slack `c'zausedfby fthe drive lof "blanket through the 'pressure rolls I`8 and 20.

tojand idoes not provide' a true drive for blanket l 24-but 'rather Eis' intended merely to take up AvThe bottom `blanket 26 "is 'handled' by :apparatus generally "similar to that previously `described.

.In order to facilitate reverse feed of the blankmanner, motor |24 may be used to drive either set of drums. For example, when the blankets havebeen unwound from drums |4 and |30 and wound upon drums |20 and |36, it is simply necessary to remove belt |28 from pulley |22 and to instead apply the same to pulley |I6. Similarly, belt |40 may be removed from pulley |38 and applied to pulley |32. At the same time, the end of each blanket must be threaded through the machine in reversed direction, and to insure suitable clearance of the parts, I provide extra idle or guide rollers |44 at the top of the machine and corresponding guide rollers |46 at the bottom of the machine. The end of blanket 24 is led from drum |20 upwardly over rollers |44, then downwardly around roller I I8, then around pressure roll I8 to guide roller 28, and thence upwardly to drum |I4. The end of blanket 26 is led from drum |36 downwardly and around rollers |46, then upwardly to roller |34, then around feed roller 20 to guide roller 30, and thence down` wardly to drum |30.

Motor |24 is also used to take up or reel the laminatedproduct. To this end, take-up drum 22 is provided with a pulley |48 (not shown in Fig. 2 because it comes outside the margin' of the drawings) connected by a belt |50 to a pulley |5| on the remoteV end of the motor shaft. Like the other take-up drums, take-up `drum 22 is preferably driven with a slip connection here exemplified by making the belt I50-relatively loose.

Take-up drum 22 is preferably spaced remotely from pressure rolls I8 and 20 in order to provide adequate time for the adhesive to dry. This distance has been shortened in the drawings, but it will be understood that it may be increased to any desired amount, the laminated web meanwhile beingv supported by a series of suitable guide rollers'I52.y If desired, the distance needed may be shortened by the use vof artificial drying api paratus, such .as a tunnel with appropriate blower `cleaned and ground, or replaced if so-nicked or bent that the 'sheetsare not pickedfrom the' `cementroll in a smooth,y clean',` andl dependable 'marmer'. For thispurpose', the ends f the rod 92 carrying the stripper rngers90 are squared, as indicated at |60, 'and are received inmating slots |62 (Fig. 3)""provided-'i'nthe frameofthemachine. These -sl'otsare;r enlarged at 11154` so 5 that rod 92 lfmay be elevated to the enlargement and then re* niovedl` 1` It i is preliminarily 'necessary -to move 'guide rolle'r 9 4 outo'f the way, and tothis end the will Vbeilianifst that by iooseningbolts' l ss and Aswingingl guideroller "94v4 to -a position-^-opposite Referringfnw tong;l *.1 snowbo'ok jackets cemented to thetransparent cellulose web I6. It will be noted that web IG is wider than jacket I4, and this is particularly desirable when covering book jackets for libraries, or in any case where the book jackets have already been cut to true dimension. The arrangement possesses the further advantage that book jackets of varying width may be fed through the apparatus. When laminating book jackets for a publisher, the jackets are preferably laminated before they are trimmed to proper dimension, and in such case it is not necessary for the web I6 to be wider than the jacket, and, in fact, it may be narrower so long as it is not narrower than the finished dimension of the jacket. It will be understood that in either case the parts are subsequently severed and trimmed to proper dimension.

I have heretofore mentioned that theapparatus may be used for laminating continuous webs of sheet material as well as separate sheets and a web. This may be illustrated in connection with book jackets, for when book jackets are pre` pared for library purposes, it is desirable to cement a sheet of strong backingv paper, for example kraft paper, to the inside of the jacket, in addition to cementing transparent paper to the outside of the jacket. Referring to Fig. 1, the apparatus is provided with a supply drum and a guide ro1ler|'|2 at one end of table 40. When dealing with` a web instead Vof separate sheets, a supply roll of the web is placed on drum |10 and is fed over guide roller |12 to the cementy ing mechanism.

In the present case the take-up roll on drum 22 with its slip sheet of kraft paper, is physically transferred from drum 22 to drum HD. The laminated web 32 is fed from the roll to the cementing apparatus and at the same time the slip sheet |55 is taken up on a suitable take-up drum |14 which is driven by a slip connection or loose belt from the shaft of drum |10 or from any desired available shaft in the gear train heretofore described in connection with Fig. 4. The supply of paper on drum 98 is changed from transparent cellulose paper to kraft paper. The kraft paper is thus cemented on the back of the bookjackets, the transparent cellulose web being-left on' the front or opposite side of the book jackets.

It is believed that the operation as well as the many advantages of my improved laminating method and apparatus, will be apparent from the foregoing detailed description thereof. Separate sheets may be laminated to a continuous web. Difficult stock such as Cellophane and Kodapak may be successfully handled and smoothly and permanently adhered to other stock. The resulting product is clean, all excessive adhesive being absorbed by the blankets. The apparatus functions indefinitely without difllculty such as would be caused by adhesive reaching the pressure rolls or'other parts of the apparatus. Dimculty caused by the generation of static electricity is overcome. A perfectly uniform yet thin transparent coat of adhesive is obtainable, for an adequate supply may be applied initially and the excess squeezed out under sufficient pressure. The blankets may be used repeatedly until fully loaded with adhesive. The direction of opera.- tion of the blanket is reversiblewithout physilaminating separate sheets, the adhesivo may be squeezed from the transverse as well as the longitudinal edges of the sheets, yet is successfully absorbed by the blankets, and raises no difhculty. The successive sheets may differ in'- dimension,

thus making the location of the lines of adhesive a variable, without in any Way complicating the process or messing the product.

It will be understood that while I have mentioned lacquer as an adhesive, other adhesives may be used, depending upon the nature of the materials being laminated, and even in the case of transparent cellulose paper, depending upon the particular paper used and whether or not water-proofed, and, if water-proofed, the nature of the coating used on the cellulose paper for that purpose. l

It has already been mentioned that the transparent cellulose paper may be applied to stiff as well as exible sheets of material. For example, stiff or backed pictures may be laminated for sale at low cost, in lieu of protecting the same with glass. It will be understood that for this purpose the laminated web is not reeledon a take-up drum but is instead severed between the successive sheets and stacked by hand, or by using an appropriate conveyor mechanism. Even when using flexible sheets, for example book jackets, the successive sheets may be severed without a preliminary reeling operation. Thus, when laminating book jackets for a publisher rather than for libraries, so that the jackets are to be of uniform dimension and require no inside backing of.

kraft or other strengthening paper, the web, after leaving the pressure rolls and becoming suih'ciently dry, is run past stationary trimmer knives which trim the margins, leaving a web of desired width, after which the webmay be transversely severed either manually or automatically by a rotary shearing knife.

Absolute synchronism of the working parts during the laminating operation is essential in order to obtain a smooth nishe product and in order to prevent any slight displacement of one lamination with respect to the other which ordinarily `will spread and blur the colors and printing on the book jacket or other product being laminated.4 The use of gears with helical teeth, while not essential, is for this reason desirable. The pressure rolls are preferably made of smooth polished metal, and while rubber rolls may be used, the metal rolls are more accurate and introduce no difficulties because the blankets themselves provide a slight though adequate cushioning between the rolls and the laminated product.

While I have illustrated the motor for taking' up the slack of the blankets as being located symmetrically with respect to the supply and take-up drums, it will be manifest that the pulleys |26 and |42 may be located symmetrically as shown yet the motor placed elsewhere if more convenient.' Moreover, mechanical gearing with slip clutches may be used instead of belts, the clutches being so arranged as to make possible the application of power to either set of drums at will.

It will therefore be apparent that while I have shown and described my invention in preferred form, many changes and modifications may be made without departing from the spirit of the invention, defined in the following claims.

I claim:

1. Laminating apparatus comprising a table for sheet material feed, a cement applying roll for the sheet material, a cement bath, a doctor roll, feed rollers, means to positively drive said cement roll, doctor roll,I and feed rollers. stripper fingers at the cement roll, a supply drum for a web of transparent non-fibrous cellulosic material such as cellulose ester or regenerated cellulose, and means to feed a continuous web ofA material from the supply-drum to a point immediatelyA adjacent the vstripper fingers and then away from the stripper lingers, whereby sheet material fed to the cement roll is directly thereafter superimposedl on the continuous web of material.

f 2. Laminating apparatus comprising upper and lower pressure rolls, means. to feed freshly cemented laminations of relatively non-absorbent material between said pressure rolls, upper and 'lower su'pply drums for'long blankets of absorptive material, upper and lower take-up drums for said blankets, suitable guide rollerslfor guidingv the upper blanket from the supplyy drum around most of the periphery of the upper pressure roll and thence to the upper take-up drum, the guide roller following the pressure roll being so located that the said blanket is gradually separated from Said Llaminations immediately following the pressure rolls, corresponding` guide rollers for the paper, supply rolls therefor, take-up rolls there-v for, guide rollers to feed one of the webs from its supply roll directly around one of the pressure rolls and thence to its take-up roll, guide rollers i to feed the other web directly around the other pressure roll and thence to its take-up roll, means to feed the combined laminations therebetween, some of said guide rollers functioning to at least somewhat separate the webs from the combined laminations immediately following the pressure rolls, and gear means to positively drive the cementing apparatus'and the pressure rollsrin synchronism.

4. Laminating apparatus for handling comparatively non-absorptive materials, comprising upper and lower pressure rolls, means'to feed coplously cemented laminations between said pressure rolls, one of said laminations being made of glossy transparent non-'fibrous cellulosic material such as cellulose ester or regenerated cellulose, long upper and lower blankets of absorptive material such as soft porous paper, supply rolls therefor, take-up rolls therefor, and means to feed the blankets from the supply rolls in synchronism with the laminations and the pressure rolls to their respective take-up rolls, the blankets being disposed on each`side ofthe laminations between the laminations and the pressure rolls.

5. Apparatus for laminating sheet material and a continuous web of glossy transparent non-absorptive material such as cellulose ester or regenerated cellulose, comprising cementing apparatus to apply excess adhesive to one of the laminations, means to combine the sheet material and the continuous web, pressure rolls between which the resulting lamination of sheet material and web is fed, means to drive the cementing apparatus' and the pressure rolls in synchronism,

at least one very long blanket of absorptive material such as soft porous paper, a supply roll therefor, a takeup roll therefor, and means to feed the blanket from the supply roll between the pressure rolls and the laminated materials to the take-up rolll 6. Laminating apparatus comprising a table for sheet feed, a cement applyingroll for the sheets, a cement bath, 'a doctor roll, a feed roller, means .to positively drive said cement roll, doctor roll,

and feed roller, stripper fingers at the cement roll, a supply drum for a web of transparent nonbrous cellulosic material such 'as cellulose ester or regenerated cellulose, means to feed a contlnuous web of material from the supply drum t0 a point irmnediately adjacent the stripper ngers and then away from the stripper ngers, whereby sheets of material fed to the cementroll are directly thereafter superimposed on the continuous web o f material, pressure rolls to which the laminated material is fed, means positively driving one of the pressure rolls in synchronlsm with the cementing roll, a very long absorbent blanket made of soft porous paper or other suitable material, a supply roll for said blanket, a

' take-up roll for said blanket, and means to feed the blanket from the supply roll around most of the periphery of a pressure roll and finallyto the take-up roll,

f7. Laminating apparatus comprising upper and lower pressure rolls, means to feed freshly cemented laminations of relatively non-absorbent material between said pressure rolls, asupply drum' for a long blanket of absorptive material, a

take-up drum for said blanket,` suitable guide rollers for guiding said blanket from the supply drum around a pressure roll and finally to the take-up drum, driving means for driving the takeup drum through appropriate slip connections, means whereby the feed of the blanket at the drums may bev reversed while still feeding the laminations together with the blanket through the pressure rolls in the original direction, 'the blanket then being fed from the former take-up drum acting as a supply drum to the former supply drum acting as a take-up drum, and means wherebythe driving means may be disconnected from the former take-up drum and connected to the former supply drum.

8. Laminating apparatus comprising upper and lower pressure rolls, means to feed freshly cemented laminations of relatively non-absorbent material betweenl said pressure rolls, a supply drum for a light blanket of absorbent material, a take-up drum for said blanket, suitable guide rollers for guiding the blanket from the supply drum around most of the periphery of a pressure roll, and finally to the take-up drum, the guide roller immediately following the pressure roll being so located that the said blanket is gradually separated from said laminations immediately following the pressure rolls, means for driving the take-up drum through appropriate slip connections, and means for positively synchronously driving the pressure rolls:

f LEON GOLD. 

